CN110729966B

CN110729966B - Device for testing performance of solar cell

Info

Publication number: CN110729966B
Application number: CN201911007012.6A
Authority: CN
Inventors: 赵浩; 冯浩; 丁立军; 李洪武; 马如远; 沈丽尧; 周丽; 王成贤; 王挺; 陈晟; 许聚武
Original assignee: Jiaxing University
Current assignee: Jiaxing Jialin Intelligent Technology Co ltd
Priority date: 2019-10-22
Filing date: 2019-10-22
Publication date: 2021-05-11
Anticipated expiration: 2039-10-22
Also published as: CN110729966A

Abstract

The invention provides a device for testing the performance of a solar cell, which comprises an upper sliding plate, a right limiting rod, a clamping plate, a polished rod, a top plate and a deflector rod, wherein the upper sliding plate is fixed on the upper limiting rod; the base is formed by symmetrically welding four square frames, the top end of the base is provided with a motor in a locking manner, and a rotating shaft of the motor is inserted with a worm in a butt joint manner; four polished rods are symmetrically supported and welded on the top end section of the supporting square pipe, clamping plates are inserted on the four polished rods in a sliding mode, and the battery plate is clamped and positioned among the clamping plates by the top clamp; two positioning lug plates are symmetrically supported on the lower half section of the supporting square pipe; the back of the positioning wedge block is supported by two sliding rods, the two sliding rods are respectively sleeved with a spring, and the wedge block is just inserted between the longitudinal and transverse long sliding grooves of the supporting square tube in a sliding manner.

Description

Device for testing performance of solar cell

Technical Field

The invention belongs to the technical field of testing devices, and particularly relates to a device for testing the performance of a solar cell.

Background

Small-sized solar cells are widely used in small-power loads such as yard lights, street lamps, signs, etc., and electrical performance tests of small-sized solar cells are generally performed by using simple sunlight simulation equipment. The test irradiation angle of the test device on the market is single at present, the use is inconvenient, the battery board of multiple specification and shape of suitable centre gripping location that can not be fine is used more singlely to the operation of getting to load of battery board is comparatively loaded down with trivial details inconvenient. The device is used for researching and improving the existing structure and defects and providing a device for testing the performance of the solar cell.

Disclosure of Invention

Technical problem to be solved

The invention provides a device for testing the performance of a solar cell, and aims to solve the problems that the existing solar testing device is single in testing irradiation angle, inconvenient to use, incapable of well clamping and positioning cell panels with various specifications and shapes, single in application, and complicated and inconvenient in taking and installing operation of the cell panels.

(II) technical scheme

The invention provides a device for testing the performance of a solar cell, which specifically comprises:

the device comprises a base, a battery panel, a supporting square tube, a turbine, a positioning lug plate, a positioning wedge block, a sliding rod, a connecting rod, a worm, a control electronic box, a lower sliding plate, a left limiting rod, an upper sliding plate, a right limiting rod, a clamping plate, a polished rod, a top plate and a deflector rod; the base is formed by symmetrically welding four square frames, the top end of the base is provided with a motor in a locking manner, and a rotating shaft of the motor is inserted with a worm in a butt joint manner; four polished rods are symmetrically supported and welded on the top end section of the supporting square pipe, clamping plates are inserted on the four polished rods in a sliding mode, and the battery plate is clamped and positioned among the clamping plates by the top clamp; two positioning lug plates are symmetrically supported on the lower half section of the supporting square pipe; the upper sliding plate and the lower sliding plate are both rectangular, a square sliding groove is symmetrically formed in the middle of the upper sliding plate and the lower sliding plate in a penetrating mode, a connecting square rod is welded in the middle of the square sliding groove in a supporting mode, and a left limiting rod and a right limiting rod are welded in the left side bottom of the upper sliding plate and the right side bottom of the lower sliding plate in a supporting mode respectively; a control electric box is supported and installed on the left side wall of the middle section of the supporting square tube, and a contactor inside the control electric box is electrically connected with a motor of the worm; the back of the positioning wedge block is supported by two sliding rods, the two sliding rods are sleeved with a spring, and the positioning wedge block is just inserted between the longitudinal and transverse long sliding grooves of the supporting square tube in a sliding manner.

Furthermore, a turbine is welded and fixed at the bottom of the supporting square pipe, and the turbine is inserted and supported right above the center of the base and is meshed with the worm in a rotating mode.

Furthermore, the clamping plate is arranged in a mode that circular arcs on two sides of the rectangular plate are inclined excessively, a rectangular top plate is inserted to the inner side in a penetrating and sliding mode through a spring pushing device, and a rubber pad layer is pasted on the extrusion surface of the rectangular top plate.

Further, be vertically and horizontally staggered and seted up two department's rectangular strip spouts on the lateral wall all around of the first section of support side pipe, and go up slide and lower slide and be the interval slip setting about just through its middle connecting square pole in this two department's rectangular strip spouts, and then lower slide and upper slide are set up on the first section of support side pipe by the sliding sleeve.

Furthermore, two ends of the upper sliding plate and two ends of the lower sliding plate are both rotatably connected with a connecting rod, and the other ends of the four connecting rods are respectively rotatably connected with the hanging shafts at the bottoms of the four clamping plates.

Furthermore, the left limiting rod and the right limiting rod are completely identical in mechanism and are formed by welding and combining an upper rack section and a lower sliding shaft section together, wherein the bottom of the lower sliding shaft is welded with a pedal, and the two lower sliding shafts are pushed by a spring to slide and penetrate through two positioning lug plates.

Furthermore, a connecting square plate is arranged at the bottom of the longitudinal and transverse long strip sliding grooves of the supporting square tube, two rectangular positioning plates are vertically supported on the connecting square plate and the bottom plates of the two long strip sliding grooves in an inclined manner, and the two positioning wedge blocks are pushed, penetrated and inserted on the two positioning plates through two sliding rod springs at the back of the positioning wedge blocks.

Furthermore, both ends of the shifting lever are rotatably connected with a transverse shaft, the two transverse shafts are just positioned between the longitudinal and transverse long sliding grooves of the supporting square pipe, and the tail end sections of the two transverse shafts are correspondingly electrically welded with the top end surfaces of the two positioning wedge blocks through two L-shaped connecting rods.

(III) advantageous effects

Compared with the prior art, the invention provides a device for testing the performance of a solar cell, which has the following beneficial effects:

according to the device for testing, the upper sliding plate, the lower sliding plate, the four connecting rods and the four clamping plates form the crank block clamping mechanism, the four clamping plates can clamp and position battery plates with various lengths, widths, specifications and shapes, the use is flexible and the application is wide, and the worm rotates to drive the supporting square tube to deflect so as to realize the adjustment of the supporting angle of the battery plate and test of various irradiation angles. The use is convenient, and the poking rod and two positioning wedge blocks jointly form a poking, rotating, jacking and positioning mechanism, and the mechanism can be used for quickly positioning and loosening clamping plates at four positions, so that the battery panel can be conveniently taken out and mounted.

Drawings

Fig. 1 is a schematic view of the installation and positioning of the battery plate of the present invention.

Fig. 2 is a schematic structural diagram of the present invention.

Fig. 3 is a schematic diagram of the three-dimensional structure of the present invention.

FIG. 4 is an enlarged view of the portion of FIG. 3A of the present invention.

FIG. 5 is a schematic view of the installation position of the shift lever of the present invention.

FIG. 6 is a schematic view of the two positioning wedges of the present invention being slidably inserted.

FIG. 7 is a schematic view of the rotatable connection of the lower slide plate and two clamping plates according to the present invention.

FIG. 8 is a schematic view of the rotatable connection of the upper slide plate and two clamping plates according to the present invention.

In the figure: 1. a base; 2. a battery plate; 3. supporting the square pipe; 301. a turbine; 302. positioning the ear plate; 4. positioning a wedge block; 401. a slide bar; 5. a connecting rod; 6. a worm; 7. controlling an electric box; 8. a lower slide plate; 801. a left stop lever; 9. an upper slide plate; 901. a right stop lever; 10. a splint; 11. a polish rod; 12. a top plate; 13. a deflector rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a device for testing performance of a solar cell, including a base 1, a cell panel 2, a square supporting tube 3, a turbine 301, a positioning ear plate 302, a positioning wedge 4, a sliding rod 401, a connecting rod 5, a worm 6, a control electronic box 7, a lower sliding plate 8, a left limiting rod 801, an upper sliding plate 9, a right limiting rod 901, a clamping plate 10, a polish rod 11, a top plate 12 and a shift lever 13; the base 1 is formed by symmetrically welding four square frames, the top end of the base 1 is provided with a motor in a locking manner, and a rotating shaft of the motor is inserted with a worm 6 in a butt joint manner; four polished rods 11 are symmetrically supported and welded on the top end section of the supporting square tube 3, clamping plates 10 are slidably inserted on the four polished rods 11, and the battery plate 2 is clamped and positioned among the clamping plates 10; two positioning lug plates 302 are symmetrically supported on the lower half section of the supporting square tube 3; the upper sliding plate 9 and the lower sliding plate 8 are both rectangular, a square sliding groove is symmetrically formed in the middle of the upper sliding plate 9 and the lower sliding plate 8 in a penetrating mode, a connecting square rod is welded in the middle of the square sliding groove in a supporting mode, and a left limiting rod 801 and a right limiting rod 901 are welded in the left bottom of the upper sliding plate 9 and the right bottom of the lower sliding plate 8 in a supporting mode respectively; a control electric box 7 is supported and installed on the left side wall of the middle section of the supporting square tube 3, and a contactor inside the control electric box 7 is electrically connected with a motor of the worm 6; the back of the positioning wedge block 4 supports two sliding rods 401, a spring is sleeved on each of the two sliding rods 401, and the positioning wedge block 4 is just inserted between the longitudinal and transverse long sliding grooves of the supporting square tube 3 in a sliding manner.

The bottom of the square supporting tube 3 is fixedly welded with a turbine 301, the turbine 301 is supported over the center of the base 1 in an inserted mode and is meshed with the worm 6 in a rotating mode, the turbine 301 can drive the square supporting tube 3 to deflect to adjust the supporting angle of the battery panel 2 through rotation of the worm 6, and the test of multiple irradiation angles is carried out, so that the use is convenient.

Wherein, splint 10 is the excessive setting of rectangle both sides circular arc slope, and pushes up through the spring top to run through to slide on the splint 10 and insert to the inboard and be equipped with a rectangle roof 12, all pastes on the compressive plane of this rectangle roof 12 and is provided with the one deck rubber pad, and rectangle roof 12 can realize the buffering to clamping force through the spring on the inserted bar at its back, avoids two splint 10 clamping torque too big to press from both sides the bits of broken glass with panel 2.

Wherein, it has seted up two department's rectangular strip spouts to be vertically and horizontally staggered on the lateral wall all around of the first section of support side pipe 3, and go up slide 9 and lower slide 8 and be the interval through its middle connecting square pole and slide and set up in this two department's rectangular strip spouts about, and then slide 8 and upper slide 9 are set up on the first section of support side pipe 3 by the sliding sleeve, two department's rectangular strip spouts provide the space for the installation of lower slide 8 and upper slide 9, and lower slide 8 and upper slide 9 can follow two department's rectangular strip spouts and slide about separately and adjust the interval of controlling and two department's splint 10 around respectively, and then make four splint 10 can the panel of the multiple long wide specification of centre gripping location and multiple shape, use nimble application extensively.

The two ends of the upper sliding plate 9 and the lower sliding plate 8 are rotatably connected with a connecting rod 5, the other ends of the four connecting rods 5 are rotatably connected with hanging shafts at the bottoms of the four clamping plates 10 respectively, the upper sliding plate 9, the lower sliding plate 8, the four connecting rods 5 and the four clamping plates 10 jointly form a crank block clamping mechanism, and the upper sliding plate and the lower sliding plate can slide downwards and are linked with the four clamping plates 10 to relatively slide to clamp the battery panel 2 only by respectively stepping down pedals at the bottoms of the left limiting rod 801 and the right limiting rod 901.

The mechanism of the left limiting rod 801 and the mechanism of the right limiting rod 901 are completely the same and are formed by welding an upper rack section and a lower sliding shaft section together, wherein the bottom of the lower sliding shaft is welded with a pedal, the two lower sliding shafts are pushed by a spring to slide and pass through the two positioning lug plates 302, when the two positioning wedge blocks 4 slide and are pulled away from the left limiting rod 801 and the right limiting rod 901 to lose positioning, the springs on the lower sliding shafts of the two limiting rods can push the upper and lower sliding plates upwards to slide and reset so as to realize automatic loosening of the battery panel 2, and the battery panel 2 is convenient to take down and replace.

The bottom positions of the two long sliding grooves in the longitudinal and transverse directions of the supporting square pipe 3 are provided with a connecting square plate, the connecting square plate and the bottom plates of the two long sliding grooves are vertically supported by two rectangular positioning plates in an up-down inclined mode, two positioning wedge blocks 4 are inserted in the two positioning plates through two sliding rods 401 at the back of the connecting square plate and the two sliding rods 401 in a spring pushing and penetrating mode, the two positioning wedge blocks 4 can be matched with tooth grooves in a left limiting rod 801 and a right limiting rod 901 in an inserting mode to position the two sliding plates and keep clamping intervals of the four clamping plates 10, the two positioning wedge blocks 4 are inserted in a spring elastic pushing mode, automatic pushing and inserting locking can be conducted on the left limiting rod 801 and the right limiting rod 901 when the left limiting rod 801 and the right limiting rod 901 slide downwards, and positioning operation of the four clamping plates 10 is convenient.

Wherein, the both ends of driving lever 13 all rotate and are connected with a department and violently wear the axle, and these two departments are crossed the axle and are located between the rectangular spout of moving about freely and quickly of support side's pipe 3 just, and the tail end section of two departments and violently wear the axle all through two L form connecting rods correspond with two location voussoirs 4's top face electric welding and be connected, can make two location voussoirs 4 take out the cunning in step through dialling the driving lever 13, and then make left gag lever post 801 and right gag lever post 901 and the splint 10 of four places take off that can be convenient.

The specific use mode and function of the embodiment are as follows:

the use process of the invention comprises the steps of firstly placing clamping plates 10 at the top ends of four polished rods 11 and among the clamping plates 10, then respectively stepping down pedals at the bottoms of a left limiting rod 801 and a right limiting rod 901 to enable upper and lower sliding plates to slide downwards and to be linked with the four clamping plates 10 to slide relatively to clamp a battery panel 2, and finally controlling the battery panel 2 and a support square tube 3 to deflect and change the irradiation angle through controlling forward and reverse buttons on an electric box 7 according to the test requirement.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An apparatus for solar cell performance testing, characterized by: the device for testing the performance of the solar cell comprises a base (1), a cell panel (2), a supporting square tube (3), a turbine (301), a positioning lug plate (302), a positioning wedge block (4), a sliding rod (401), a connecting rod (5), a worm (6), a control electronic box (7), a lower sliding plate (8), a left limiting rod (801), an upper sliding plate (9), a right limiting rod (901), a clamping plate (10), a polished rod (11), a top plate (12) and a deflector rod (13); the base (1) is formed by symmetrically welding four square frames, the top end of the base (1) is provided with a motor in a locking way, and a rotating shaft of the motor is inserted with a worm (6) in a butt joint way; four polished rods (11) are symmetrically supported and welded on the top end section of the supporting square pipe (3), clamping plates (10) are inserted on the four polished rods (11) in a sliding mode, and the battery plate (2) is clamped and positioned among the clamping plates (10) by the top; two positioning lug plates (302) are symmetrically supported on the lower half section of the supporting square pipe (3); the upper sliding plate (9) and the lower sliding plate (8) are both arranged in a rectangular shape, a square sliding groove is symmetrically formed in the middle of the upper sliding plate and the lower sliding plate in a penetrating mode, a connecting square rod is welded in the middle of the square sliding groove in a supporting mode, and a left limiting rod (801) and a right limiting rod (901) are welded in the bottom of the left side of the upper sliding plate (9) and the bottom of the right side of the lower sliding plate (8) in a supporting mode respectively; a control electric box (7) is supported and installed on the left side wall of the middle section of the supporting square tube (3), and a contactor inside the control electric box (7) is electrically connected with a motor of the worm (6); the back of the positioning wedge block (4) supports two sliding rods (401), the two sliding rods (401) are respectively sleeved with a spring, and the positioning wedge block (4) is just inserted between the longitudinal and transverse long sliding grooves of the supporting square pipe (3) in a sliding manner;

the front, rear, left and right side walls of the upper half section of the supporting square pipe (3) are provided with two long strip sliding grooves in a criss-cross manner, the upper sliding plate (9) and the lower sliding plate (8) are arranged in the two long strip sliding grooves in a vertically spaced sliding manner through a middle connecting square rod, and the lower sliding plate (8) and the upper sliding plate (9) are arranged on the upper half section of the supporting square pipe (3) by sliding sleeves;

two ends of the upper sliding plate (9) and two ends of the lower sliding plate (8) are respectively and rotatably connected with a connecting rod (5), and the other ends of the four connecting rods (5) are respectively and rotatably connected with hanging shafts at the bottoms of the four clamping plates (10);

the bottom positions of the two long sliding grooves in the longitudinal and transverse directions of the supporting square pipe (3) are provided with a connecting square plate, the connecting square plate and the bottom plates of the two long sliding grooves are vertically supported with two rectangular positioning plates in an up-down inclined manner, and the two positioning wedge blocks (4) are pushed, penetrated and inserted on the two positioning plates through two sliding rods (401) at the back of the positioning wedge blocks;

the two ends of the shifting lever (13) are rotatably connected with a transverse shaft, the two transverse shafts are just positioned between the longitudinal and transverse long sliding grooves of the supporting square pipe (3), and the tail end sections of the two transverse shafts are correspondingly electrically welded with the top end surfaces of the two positioning wedge blocks (4) through two L-shaped connecting rods.

2. The apparatus for solar cell performance testing according to claim 1, wherein: the bottom of the supporting square pipe (3) is fixedly welded with a turbine (301), and the turbine (301) is inserted and supported right above the center of the base (1) and is rotatably meshed with the worm (6).

3. The apparatus for solar cell performance testing according to claim 1, wherein: the clamping plate (10) is arranged in a rectangular two-side arc inclined mode, a rectangular top plate (12) is inserted inwards in a penetrating and sliding mode through a spring pushing device on the clamping plate (10), and a rubber pad layer is pasted on the extrusion surface of the rectangular top plate (12).

4. The apparatus for solar cell performance testing according to claim 1, wherein: the left limiting rod (801) and the right limiting rod (901) are completely identical in mechanism and are formed by welding an upper rack section and a lower sliding shaft section together, wherein the bottom of the lower sliding shaft is welded with a pedal, and the two lower sliding shafts are pushed by a spring to slide through two positioning lug plates (302).